Matsumura Toshiro | Department of Electrical Engineering and Computer Science, Nagoya University
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概要
- MATSUMURA Toshiroの詳細を見る
- 同名の論文著者
- Department of Electrical Engineering and Computer Science, Nagoya Universityの論文著者
関連著者
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Matsumura Toshiro
Department of Electrical Engineering and Computer Science, Nagoya University
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Yokomizu Yasunobu
Department of Electrical Engineering and Computer Science, Nagoya University
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Matsumura Toshiro
Department Of Electrical Engineering And Computer Science Nagoya University
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Yokomizu Yasunobu
Department Of Electrical Engineering And Computer Science Nagoya University
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Yokomizu Y
Department Of Electrical Engineering And Computer Science Nagoya University
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Matsumura T
Department Of Electrical Engineering And Computer Science Nagoya University
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Shimizu Hirotaka
Department Of Electrical System Engineering Polytechnic University
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YOKOMIZU Yasunobu
Nagoya University
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MATSUMURA Toshiro
Nagoya University
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Matsumura Toshiro
Nagoya Univ. Nagoya Jpn
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Yokomizu Yasunobu
Nagoya Univ. Nagoya Jpn
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Iioka Daisuke
Department of Electrical Engineering and Computer Science, Nagoya University
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CALIXTE Evenson
Department of Electrical Engineering, Nagoya University
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Calixte Evenson
Department Of Electrical Engineering Nagoya University
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Fujita Hideki
Jfcc
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Mokhtar Doaa
Nagoya University
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Fujita H
Jfcc
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Fujita Hideki
Electric Power Research & Development Center Chubu Electric Power Co. Inc.
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CALIXTE Evenson
Nagoya University
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Iioka Daisuke
Department Of Electrical Engineering And Computer Science Nagoya University
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Fujita Hideki
Chubu Electric Power Co. Inc.
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Yehia Doaa
Department of Electrical Engineering and Computer Science, Nagoya University
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SHIBUYA Masatoyo
Central Research Institute of Electric Power Industry
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Hirata Shuichi
Department of Electrical Engineering and Computer Science, Nagoya University
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SHIMIZU Hirotaka
Department of Electrical Engineering, Polytechnic University
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Suzuki Masato
Department Of General Surgery Chiba University Graduate School Of Medicine
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KADO Hiroyuki
Central Research Institute of Electric Power Industry (CRIEPI)
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WATANABE Reiji
Nagoya University
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SHIMIZU Hirotaka
Nagoya University
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ICHIKAWA Michiharu
Central Research Institute of Electric Power Industry (CRIEPI)
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MUTSUURA Keita
Department of Electrical Engineering, Nagoya University
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Matsumoto Suguru
Department of Electrical Engineering and Computer Science, Nagoya University
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Ishikawa Akira
Chubu Electric Power Co., Inc.
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Mutsuura Keita
Graduate School Of Engineering Nagoya University
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OCHIAI Ryusuke
Department of Electrical Engineering and Computer Science, Nagoya University
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Shirai M
School Of Engineering The University Of Tokyo
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Hemmi Rei
Department Of Electrical Engineering Nagoya University
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Ochiai Ryusuke
Department Of Electrical Engineering And Computer Science Nagoya University
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Suzuki Masato
Department Of Electrical Engineering And Computer Science Nagoya University
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Suzuki Masato
Department Of Bioengineering Graduate School Of Bioscience And Biotechnology Tokyo Institute Of Tech
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Kado Hiroyuki
Central Research Institute Of Electric Power Industry
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Ishikawa Akira
Chubu Electric Power Co. Inc.
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ICHIKAWA Michiharu
Central Research Institute of Electric Power Industry
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Yamamoto Kazuma
Department Of Electronic Engineering Faculty Of Engineering Tohoku University:laboratory For Microel
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UCHII Toshiyuki
Toshiba Corp.
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WATANABE REIJI
Department of Pediatrics
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Ohta Daisuke
Department Of Breast Cancer Research Tokyo Metropolitan Cancer Detection Center
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ALMIRON Pablo
名古屋大学
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IIOKA Daisuke
Nagoya University
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Kito Yukio
Toyota National College Of Technology
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Goto Masuo
Ecotopia Science Institute Nagoya University
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HIRATA Shuichi
Nagoya University
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Nitta Tanzo
School Of Engineering The University Of Tokyo
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MATSUDA Akiji
Nagoya University
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OHNO Hideyuki
Meijo University
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MATSUMURA Toshiro
Graduate School of Engineering, Nagoya University
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MUTSUURA Keita
Graduate School of Engineering, Nagoya University
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YOKOMIZU Yasunobu
Graduate School of Engineering, Nagoya University
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SHIBUYA Masatoyo
School of Engineering, The University of Tokyo
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SUGIMURA Mitsuhiro
Department of Electrical Engineering, Nagoya University
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Furuhata Takashi
Technical Department, Energy Support Corporation
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Mitsukuchi Kunio
Technical Department, Energy Support Corporation
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FURUHATA Takashi
New Business Research Department, Energy Support Corporation
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MITSUKUCHI Kunio
New Business Research Department, Energy Support Corporation
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Furuhata Takashi
Energy Support Corp. Inuyama
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ALMIRON Pablo
Nagoya University
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NAKAYAMA Kazuo
Department of Electrical Engineering and Computer Science, Nagoya University
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ITO Hiroyuki
NITTO KOGYO CORPORATION
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KOBAYASHI Tadashi
NITTO KOGYO CORPORATION
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Almiron Pablo
Department of Electrical Engineering and Computer Science, Nagoya University
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HEMMI Rei
Department of Electrical Engineering, Nagoya University
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HEMMI Rei
Nagoya University
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Mitsukuchi Kunio
Energy Support Corp. Inuyama
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Almiron P
名古屋大学
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Sugimura Mitsuhiro
Department Of Electrical Engineering Nagoya University
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Hayashi Yasuhiro
Department Of Bacteriology School Of Medicine Kanazawa University
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Nakayama Kazuo
Department Of Electrical Engineering And Computer Science Nagoya University
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Almiron Pablo
Nagoya Univ. Nagoya
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Shibuya Masatoyo
School Of Engineering The University Of Tokyo
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Watanabe Reiji
Department Of Electrical Engineering And Computer Science Nagoya University
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Ishikawa Akira
Chubu Electric Power Co. Inc. Nagoya
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SUZUKI Katsumi
Toshiba Corporation
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Yamamoto Kazuma
Department of Electrical Engineering and Computer Science, Nagoya University
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Ohta Daisuke
Department of Electrical Engineering and Computer Science, Nagoya University
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Majima Amane
Toshiba Corporation
著作論文
- Formulated representation for upper limitation of deliverable power in low-voltage DC distribution system (特集 電力・エネルギー分野における直流応用技術)
- Derivation of Receivable Power of Electronic Loads Connected to DC Distribution System on the Basis of Stability Criterion
- Evaluation of Breaking Capability of a Hybrid Fault Current-Limiting Circuit Breaker Based on Mayr-Type Arc Model
- Estimation of Current Interruption for a Circuit Breaker Associated with Inductive Current-Limiter based on Mayr Model
- Effect of a Fault Current Limiter on Interrupting Condition under Breaker Terminal Fault Regime
- Effect of Fault Current Limiter on Transient Recovery Voltage across a Circuit Breaker under Breaker Terminal Fault Condition
- Formulated representation for upper limitation of deliverable power in low-voltage DC distribution system (特集 電力・エネルギー分野における直流応用技術)
- Correlation between interrupting capability and airflow velocity distribution in flat-type arc quenching chamber
- Increase of Inductance Ratio of Flat Type Fault Current Limiter with High-T_c Superconducting Disk
- Required Limiting Impedance and Capacity of Fault Current Limiter Installed in Customer System with Synchronous Generator
- Limiting Impedance of Flat Type Fault Current Limiter with High Tc Superconducting Plate (特集:電力・エネルギー分野を支える静止器技術の新展開)
- Arc Behavior in Rotary-arc Type of Load-break Switch and its Current-interrupting Capability for Different Environmentally Benign Gases and Electrode Materials
- Arc behavior in rotary-arc type of load-break switch and its current-interrupting capability for different environmentally benign gases and electrode materials
- Relationship between Rate of Rise of Recovery Voltage across a Breaker Connected with Fault Current Limiter and Current for Zero-Kilometer Fault Regime
- Thermodynamic Properties at High Temperatures and Particles Present After Arc Extinction in CO_2-CF_3I Mixture
- Particle composition of CO2-CF3I mixture at temperatures of 300-30,000K (特集 IWHV 2007 (5th International Workshop on High Voltage Engineering))
- Thermodynamic, Transport and Radiation Properties of High-temperature CF_3I and Transient Conductance of Residual Arc Sustained in Axial CF_3I Flow
- Influences of Opening Velocity of Electrodes and Arc Column Length on Direct-current Breaking Capability of Arc Device
- Breakdown Voltage of CO2 at Temperatures around 4000K and in Range from 300 to 700K
- Anode-fall Voltages of Air Arcs Between Electrodes of Copper, Silver and Tungsten at Currents up to 1500A
- Thermal Breakdown in High Temperature CO_2 and Air Impressed with DC Voltage at Atmospheric Pressure
- Anode-fall voltages of Air Arcs Between Electrodes of Cu, Ag and W at Currents up to 1500A
- A Novel Approach to Deliverable Power in Low-Voltage DC Distribution System on the Basis of Voltage Stability
- High-Temperature Properties of CO2 Mixed with N2:—Comparison to CO2 Mixture with O2—